/* response.inl * * Bufferring for HTTP headers for HTTP response. * This function are only intended to be used at the server side. * Optional for HTTP/1.0 and HTTP/1.1, mandatory for HTTP/2. * * This file is part of the CivetWeb project. */ #if defined(NO_RESPONSE_BUFFERING) && defined(USE_HTTP2) #error "HTTP2 works only if NO_RESPONSE_BUFFERING is not set" #endif /* Internal function to free header list */ static void free_buffered_response_header_list(struct mg_connection *conn) { #if !defined(NO_RESPONSE_BUFFERING) while (conn->response_info.num_headers > 0) { conn->response_info.num_headers--; mg_free((void *)conn->response_info .http_headers[conn->response_info.num_headers] .name); conn->response_info.http_headers[conn->response_info.num_headers].name = 0; mg_free((void *)conn->response_info .http_headers[conn->response_info.num_headers] .value); conn->response_info.http_headers[conn->response_info.num_headers] .value = 0; } #else (void)conn; /* Nothing to do */ #endif } /* Send first line of HTTP/1.x response */ static void send_http1_response_status_line(struct mg_connection *conn) { const char *status_txt; const char *http_version = conn->request_info.http_version; int status_code = conn->status_code; if ((status_code < 100) || (status_code > 999)) { /* Set invalid status code to "500 Internal Server Error" */ status_code = 500; } if (!http_version) { http_version = "1.0"; } /* mg_get_response_code_text will never return NULL */ status_txt = mg_get_response_code_text(conn, conn->status_code); mg_printf(conn, "HTTP/%s %i %s\r\n", http_version, status_code, status_txt); } /* Initialize a new HTTP response * Parameters: * conn: Current connection handle. * status: HTTP status code (e.g., 200 for "OK"). * Return: * 0: ok * -1: parameter error * -2: invalid connection type * -3: invalid connection status */ int mg_response_header_start(struct mg_connection *conn, int status) { if ((conn == NULL) || (status < 100) || (status > 999)) { /* Parameter error */ return -1; } if ((conn->connection_type != CONNECTION_TYPE_REQUEST) || (conn->protocol_type == PROTOCOL_TYPE_WEBSOCKET)) { /* Only allowed in server context */ return -2; } if (conn->request_state != 0) { /* only allowed if nothing was sent up to now */ return -3; } conn->status_code = status; conn->request_state = 1; /* Buffered response is stored, unbuffered response will be sent directly, * but we can only send HTTP/1.x response here */ #if !defined(NO_RESPONSE_BUFFERING) free_buffered_response_header_list(conn); #else send_http1_response_status_line(conn); conn->request_state = 1; /* Reset from 10 to 1 */ #endif return 0; } /* Add a new HTTP response header line * Parameters: * conn: Current connection handle. * header: Header name. * value: Header value. * value_len: Length of header value, excluding the terminating zero. * Use -1 for "strlen(value)". * Return: * 0: ok * -1: parameter error * -2: invalid connection type * -3: invalid connection status * -4: too many headers * -5: out of memory */ int mg_response_header_add(struct mg_connection *conn, const char *header, const char *value, int value_len) { #if !defined(NO_RESPONSE_BUFFERING) int hidx; #endif if ((conn == NULL) || (header == NULL) || (value == NULL)) { /* Parameter error */ return -1; } if ((conn->connection_type != CONNECTION_TYPE_REQUEST) || (conn->protocol_type == PROTOCOL_TYPE_WEBSOCKET)) { /* Only allowed in server context */ return -2; } if (conn->request_state != 1) { /* only allowed if mg_response_header_start has been called before */ return -3; } #if !defined(NO_RESPONSE_BUFFERING) hidx = conn->response_info.num_headers; if (hidx >= MG_MAX_HEADERS) { /* Too many headers */ return -4; } /* Alloc new element */ conn->response_info.http_headers[hidx].name = mg_strdup_ctx(header, conn->phys_ctx); if (value_len >= 0) { char *hbuf = (char *)mg_malloc_ctx((unsigned)value_len + 1, conn->phys_ctx); if (hbuf) { memcpy(hbuf, value, (unsigned)value_len); hbuf[value_len] = 0; } conn->response_info.http_headers[hidx].value = hbuf; } else { conn->response_info.http_headers[hidx].value = mg_strdup_ctx(value, conn->phys_ctx); } if ((conn->response_info.http_headers[hidx].name == 0) || (conn->response_info.http_headers[hidx].value == 0)) { /* Out of memory */ mg_free((void *)conn->response_info.http_headers[hidx].name); conn->response_info.http_headers[hidx].name = 0; mg_free((void *)conn->response_info.http_headers[hidx].value); conn->response_info.http_headers[hidx].value = 0; return -5; } /* OK, header stored */ conn->response_info.num_headers++; #else if (value_len >= 0) { mg_printf(conn, "%s: %.*s\r\n", header, (int)value_len, value); } else { mg_printf(conn, "%s: %s\r\n", header, value); } conn->request_state = 1; /* Reset from 10 to 1 */ #endif return 0; } /* forward */ static int parse_http_headers(char **buf, struct mg_header hdr[MG_MAX_HEADERS]); /* Add a complete header string (key + value). * Parameters: * conn: Current connection handle. * http1_headers: Header line(s) in the form "name: value". * Return: * >=0: no error, number of header lines added * -1: parameter error * -2: invalid connection type * -3: invalid connection status * -4: too many headers * -5: out of memory */ int mg_response_header_add_lines(struct mg_connection *conn, const char *http1_headers) { struct mg_header add_hdr[MG_MAX_HEADERS]; int num_hdr, i, ret; char *workbuffer, *parse; /* We need to work on a copy of the work buffer, sice parse_http_headers * will modify */ workbuffer = mg_strdup_ctx(http1_headers, conn->phys_ctx); if (!workbuffer) { /* Out of memory */ return -5; } /* Call existing method to split header buffer */ parse = workbuffer; num_hdr = parse_http_headers(&parse, add_hdr); ret = num_hdr; for (i = 0; i < num_hdr; i++) { int lret = mg_response_header_add(conn, add_hdr[i].name, add_hdr[i].value, -1); if ((ret > 0) && (lret < 0)) { /* Store error return value */ ret = lret; } } /* mg_response_header_add created a copy, so we can free the original */ mg_free(workbuffer); return ret; } #if defined(USE_HTTP2) static int http2_send_response_headers(struct mg_connection *conn); #endif /* Send http response * Parameters: * conn: Current connection handle. * Return: * 0: ok * -1: parameter error * -2: invalid connection type * -3: invalid connection status */ int mg_response_header_send(struct mg_connection *conn) { #if !defined(NO_RESPONSE_BUFFERING) int i; int has_date = 0; int has_connection = 0; #endif if (conn == NULL) { /* Parameter error */ return -1; } if ((conn->connection_type != CONNECTION_TYPE_REQUEST) || (conn->protocol_type == PROTOCOL_TYPE_WEBSOCKET)) { /* Only allowed in server context */ return -2; } if (conn->request_state != 1) { /* only allowed if mg_response_header_start has been called before */ return -3; } /* State: 2 */ conn->request_state = 2; #if !defined(NO_RESPONSE_BUFFERING) #if defined(USE_HTTP2) if (conn->protocol_type == PROTOCOL_TYPE_HTTP2) { int ret = http2_send_response_headers(conn); return ret ? 0 : 0; /* todo */ } #endif /* Send */ send_http1_response_status_line(conn); for (i = 0; i < conn->response_info.num_headers; i++) { mg_printf(conn, "%s: %s\r\n", conn->response_info.http_headers[i].name, conn->response_info.http_headers[i].value); /* Check for some special headers */ if (!mg_strcasecmp("Date", conn->response_info.http_headers[i].name)) { has_date = 1; } if (!mg_strcasecmp("Connection", conn->response_info.http_headers[i].name)) { has_connection = 1; } } if (!has_date) { time_t curtime = time(NULL); char date[64]; gmt_time_string(date, sizeof(date), &curtime); mg_printf(conn, "Date: %s\r\n", date); } if (!has_connection) { mg_printf(conn, "Connection: %s\r\n", suggest_connection_header(conn)); } #endif mg_write(conn, "\r\n", 2); conn->request_state = 3; /* ok */ return 0; }